CN212488321U - Orchid dried bean curd processing system - Google Patents

Abstract

The utility model discloses an orchid dried bean curd processing system, it is including turning over board material loading unit, the sign indicating unit on stripping and slicing top cutting flower conveying unit and the undercut flower, it turns over the board to realize that bean curd is automatic, workman's intensity of labour has been alleviateed, adopt program control to divide the whole board bean curd into strips and dices simultaneously, by the size of every bean curd of program control, need not the staff and change tool and mould more, the smooth operation of production has been guaranteed, production efficiency is improved, whole production process is accomplished by mechanical automation, it contacts food to need not the staff, the health and the safety requirement in the food production process have been guaranteed, the manpower is saved, production cost is effectively reduced.

Description

Orchid dried bean curd processing system

Technical Field

The utility model belongs to the food processing field, concretely relates to system of processing to orchid dried bean curd dicing, drawing flower and wearing to sign.

Background

The dried orchid is a common bean product in life, contains various mineral substances, supplements calcium, prevents osteoporosis caused by calcium deficiency, and promotes bone health of human bodies.

In the traditional processing of dried orchid bean curd, the processes of cutting into blocks, pulling flowers, sticking and the like are mostly operated manually, so that the sanitary problem caused by direct contact in the processing process exists, and the problems of low processing efficiency, low yield, low finished product quality and the like also exist. Because the dried orchid has different dimensions, if mechanical cutting is used, the threading height is not adjustable, the labor intensity of the turnover plate is high, and the bean curd with different thicknesses cannot be accurately threaded in the middle, so that the quality of the product is influenced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an orchid dried bean curd system of processing that machining efficiency is high, the yield is high, the finished product quality is high, health and security are high.

In order to solve the technical problem, the utility model discloses a technical scheme be: an orchid dried bean curd processing system is characterized by comprising: the turnover plate feeding unit comprises a turnover plate conveying belt and a turnover plate support, one end of a belt driving shaft of the turnover plate conveying belt is connected with a motor, one end of the belt driving shaft is connected with a turnover driving plate, a large gear is fixed on the turnover driving plate, a turnover cylinder seat is fixed on the turnover driving plate, a cylinder is fixed on the turnover cylinder seat, a small gear of the turnover plate support is fixed on a power shaft and meshed with the large gear, the motor is fixed at the end of the power shaft, the motor drives the power to rotate, and the turnover driving plate is driven to rotate around the belt driving shaft by the meshing; the conveying unit for cutting the block top into the bean curd is composed of conveying belt units, wherein the conveying belt units are formed by connecting two groups of conveying belts in series, the length of the bean curd conveyed by the conveying belts is controlled by a servo motor, and the servo motor controls the conveying belts to separately convey the cut bean curd blocks to the next station at a certain interval by changing the speed; and the undercut flower and stick feeding unit comprises a stick feeding unit, a main shaft of the stick feeding unit is connected with a speed reducer, a large gear on the main shaft is meshed with a middle gear, the middle gear is meshed with a small gear, the small gear is connected with a shaft, a 5-edge cam is arranged on the shaft, the main shaft drives the shaft to rotate in an accelerating manner through the three gears, the cam stirs the bamboo sticks in the bamboo stick box to enable the bamboo sticks to enter a groove on the stick feeding wheel, the stick feeding wheel rotates to feed the bamboo sticks into the groove on the stick feeding seat, a bamboo stick pushing plate is connected with the shaft, the shaft is fixed on a guide plate, an air cylinder drives the guide plate to move on the guide shaft to enable the bamboo stick pushing plate to push the bamboo sticks into the cut bean curd, the bamboo sticks pushed by the bamboo stick pushing plate firstly enter the lower part of the bamboo pressing plate, the bamboo stick pressing plate can rotate around the shaft to press the bamboo sticks on the bottom surface of the stick feeding seat under the action of a spring, and therefore the bent and, the bamboo stick clamp plate is fixed on the bamboo stick clamp plate seat through the axle, and the cylinder is fixed in the below of last bamboo stick seat, and its push rod links to each other with the bamboo stick clamp plate seat, promotes bamboo stick clamp plate seat and bamboo stick clamp plate and moves together, realizes wearing of bamboo stick and release.

Furthermore, the cutting block top cut flower conveying unit also comprises a cutter of the dried orchid cut flower cutting unit, bean curd is cut off through the up-and-down movement of an air cylinder, an air cylinder support is fixed on a supporting plate, and a roller for bean curd block movement is arranged in the middle of the supporting plate.

Furthermore, the block top cut flower conveying unit further comprises a cylinder of the dried orchid top cut flower unit, the cylinder is fixed to the top of the support through a cylinder fixing plate, the blades are arranged in the blade seats, spacers are arranged between every two blades and supported up and down, the blade seats are fixed to the lower end of the cylinder, the push plate is fixed to the blade seats through a shaft, two compression springs are arranged between the blade seats, the cylinder moves downwards, the blades cut patterns on the upper surface of the bean curd, then the blade moves upwards, and the bean curd is pushed out of the blades by the push plate under the action of the springs.

Furthermore, the bottom cut flower stick feeding unit also comprises a bean curd pressing unit, an undercut flower cylinder of the bean curd pressing unit is fixed on a cylinder fixing plate, an undercut flower pressing plate is fixed at the movable end of the undercut flower cylinder, the cylinder has the function of pressing bean curd to be undercut flower into a blade of the undercut flower unit to finish undercut flower, the cylinder is fixed on a lifting plate, two guide shafts are arranged on the lifting plate, the guide shafts are positioned in linear bearings arranged on the cylinder fixing plate, a bolt is fixed on the lifting plate, a knob is sleeved on the bolt, the lower end of the knob is positioned on an adjusting screw plate, and the cylinder can be lifted by rotating the knob, so that the bean curd to be stuck, pressed by the cylinder, can be displaced in the vertical direction, and the purpose of adjusting the bamboo stick to penetrate into the middles of bean curd with different thicknesses is achieved.

Furthermore, the bottom cut flower signing unit also comprises a bottom cut flower unit, a blade of the bottom cut flower unit is fixed on the tool apron, and two springs are arranged between the tool apron and the ejecting plate to enable the ejecting plate to return.

Further, the bottom cut flower stick feeding unit further comprises a stick penetrating unit, the stick penetrating unit is provided with a supporting plate and a base, a spring is arranged between the supporting plate and the base to help the supporting plate return, and the bean curd with the bottom cut flower is pushed into the supporting plate of the bean curd with cut flower through a bamboo stick pushing plate.

Further, turn over board material loading unit and still include bean curd slitting unit, and the guiding axle of bean curd slitting unit is provided with two mobilizable crossbeams, and the cylinder is fixed on the crossbeam, and cylinder movable push rod links to each other with slitting blade holder, and the slitting blade is fixed on the blade holder, and the cylinder promotes the slitting blade and reciprocates, accomplishes the bean curd slitting, and the cylinder is responsible for pushing away the strip bean curd of cutting to the conveyer belt.

Furthermore, the turning plate feeding unit also comprises a bean curd splitting conveyor belt, and the bean curd splitting conveyor belt conveys bean curd to the supporting plate according to a certain width, and then the bean curd is cut by the splitting blade and pushed to the conveyor belt.

Implement the technical scheme of the utility model, realize that the bean curd turns over the board automatically, alleviateed workman's intensity of labour, adopt program control to divide the strip stripping and slicing with whole board bean curd simultaneously, by the size of every bean curd of program control, need not the staff and more change knife and mould, guaranteed the smooth operation of production, improved production efficiency, whole production process is accomplished by mechanical automation, need not staff contact food, guaranteed the health and the safety requirement in the food production process, saved the manpower, effectively reduced manufacturing cost.

Drawings

FIG. 1 is a schematic view showing the structure of an orchid dried bean curd processing system.

Fig. 2 is a schematic structural diagram of a cut-block top cut-flower conveying unit.

Fig. 3 is a schematic view of the structure of the conveyor belt unit.

Fig. 4 is a schematic structural diagram of an orchid stem dicing unit.

FIG. 5 is a schematic structural diagram of a dry top cutting flower unit of orchid.

Fig. 6 is a schematic structural diagram of the pushing and feeding unit.

Fig. 7 is a schematic structural diagram of an undercut flower labeling unit.

Fig. 8 is a schematic structural view of the labeling unit (fig. a is a structural view of the label driving, fig. b is a structural sectional view of a bamboo label pressing plate, fig. c is a label pushing device, and fig. d is a sectional view of the labeling unit).

Fig. 9 is a schematic structural view of the bean curd pressing unit.

Fig. 10 is a schematic structural view of an undercut flower unit.

Fig. 11 is a schematic structural diagram of the label threading unit.

Fig. 12 is a schematic structural view of the flap feeding unit.

Fig. 13 is a schematic structural view of a bean curd strip unit.

FIG. 14 is a schematic view of the structure of the bean curd splitting conveyor belt.

Fig. 15 is a schematic structural view of the flap feeding unit.

FIG. 16 is a schematic view showing the structure of the tofu plate holder.

Fig. 17 is a schematic structural view of a flap conveyor belt.

Fig. 18 is a schematic structural view of the flap bracket.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in figure 1, the orchid dried bean curd processing system consists of a block top cut-flower conveying unit 01, an undercut flower feeding unit 02, a turnover plate feeding unit 03 and a flower arrangement feeding unit 04, wherein the flower arrangement feeding unit 04 is used for drawing flowers in a production line and feeding the flower-drawn bean curd into a frying device after the flower arrangement.

As shown in FIG. 2, the cut-top cut-flower conveying unit 01 comprises a conveyer belt unit 01-1, a dried orchid cutting unit 01-2, an orchid dried-top cut-flower unit 01-3 and a pushing and feeding unit 01-4.

As shown in fig. 3, the conveyor belt unit 01-1 is formed by connecting two sets of conveyor belts 01-1-2 and 01-2-6 in series, 01-1-1 is a support shared by the two sets of conveyor belts, 01-1-3 is a support 01-1-2, 01-1-5 is a support 01-2-6, and 01-1-8 and 01-1-9 are servo motors for controlling the movement of the conveyor belts 01-1-2 and 01-2-6, respectively. The two motors are fixed on a common base 01-1-10. 01-1-7 are two groups of guiding pieces, the front of the first group is provided with a group of photoelectric switches, and the back of the second group is provided with a group of photoelectric switches for detecting the bean curd blocks to be cut and cut. When the first group of photoelectric switches detect that the strips of bean curd to be cut are cut, the servo motors 01-1-8 control the length of the bean curd conveyed by the conveyor belt 01-1-3, and the servo motors 01-1-9 control the conveyor belt 01-1-6 to separately convey the cut bean curd blocks to the next station at a certain interval by changing the speed.

As shown in FIG. 4, the dried orchid cutting unit 01-2 comprises a cutter 01-2-3 fixed on a cylinder 01-2-1, and the bean curd is cut off by the up-and-down movement of the cylinder. 01-2-2 is a cylinder bracket fixed on a supporting plate 01-2-4, a roller 01-2-6 is arranged in the middle of the supporting plate, the roller 01-2-6 is sleeved on a shaft 01-2-7, the shaft 01-2-7 is fixed on a roller seat 01-2-5, and the roller can help bean curd blocks move forwards on the supporting plate 01-2-4.

As shown in figure 5, the orchid trunk top cut flower unit 01-3 comprises a top cut flower unit bracket 01-3-1, and a cylinder 01-3-3 is fixed on the top of the bracket through a cylinder fixing plate. 01-3-10 is a blade upper pressing plate, 01-3-6 is a blade lower pressing plate, the blades 01-3-7 are arranged in the cutter seats 01-3-12, spacers 01-3-11 are respectively arranged between the blades up and down for supporting, and the cutter seats 01-3-12 are fixed at the lower ends of the air cylinders 01-3-3. 01-3-8 is a push plate which is fixed on the knife holder 01-3-12 through a shaft 01-3-9, two compression springs are arranged between the push plate and the knife holder, and 01-3-8 is a push plate which can move up and down. The air cylinder 01-3-3 moves downwards, the blade cuts patterns on the upper surface of the bean curd and then moves upwards, and the push plate 01-3-8 pushes the bean curd out of the blade under the action of the spring.

As shown in fig. 6, the push feeding unit 01-4 has 3 cylinders 01-4-3, 01-4-4 and 01-4-9, the cylinder 01-4-3 is fixed on the fixing plate 01-4-6, the shaft end of the lifting device is fixed with a lifting seat 01-4-2, the lifting seat 01-4-2 is fixed on a push plate 01-4-8, a fixed plate 01-4-6 is fixed on an air cylinder 01-4-4, the push plate 01-4-8 realizes the up-and-down movement through the air cylinder 01-4-3, the cylinder 01-4-4 is used for realizing the back-and-forth movement, and the push plate 01-4-8 has the function of pushing the bean curd with the cut bean curd to the stick penetrating station and pushing the bean curd with the stick to the flower pulling equipment. The push plate 01-4-7 is fixed on the cylinder 01-4-9, the cylinders 01-4-4, 01-4-9 are fixed on the cylinder support 01-4-5, and the cylinder 01-4-9 has the function of pushing the bean curd which is subjected to pattern cutting at the previous station to the next undercut flower station.

As shown in FIG. 7, the bottom-cut flower labeling unit 02 includes a labeling unit 02-1, a bean curd pressing unit 02-2, a bottom-cutting flower unit 02-3, and a label threading unit 02-4.

As shown in figure 8, the stick feeding unit bag 02-1 comprises a stick feeding unit bracket 02-1-1, a bamboo stick box 02-1-28 and a stick feeding wheel 02-1-2, which are fixed on a main shaft 02-1-26 through flanges 02-1-25 at two ends, and the main shaft 02-1-26 is connected with a speed reducer 02-1-4 and driven to rotate by a motor 02-1-7. A big gear 02-1-3 on a main shaft 02-1-26 is meshed with a middle gear 02-1-8, the middle gear 02-1-8 is meshed with a small gear 02-1-9, the small gear 02-1-9 is connected with a shaft 02-1-10, a 5-edge cam is arranged on the shaft 02-1-10, the main shaft drives the shaft 02-1-10 to rotate in an accelerating mode through the three gears, and the cam on the shaft 02-1-10 stirs bamboo sticks in a bamboo stick box 02-1-28 to enable the bamboo sticks to enter grooves in a stick feeding wheel. The bamboo stick pushing plate 02-1-27 drives the guide plate 02-1-14 to move on the guide shaft 02-1-15 through driving the guide plate 02-1-14, so that the bamboo stick pushing plate 02-1-8 pushes the bamboo stick into the bean curd with cut flowers. The bamboo sticks pushed by the bamboo stick push plate 02-1-8 enter the lower part of the bamboo stick press plate 02-1-19, the bamboo stick press plate 02-1-19 can rotate around the shaft 02-1-30, and the bamboo sticks are pressed on the bottom surface of the grooves of the upper stick seat 02-1-21 under the action of the spring 02-1-31, so that the bent and deformed bamboo sticks can penetrate into the cut bean curd. The bamboo stick pressing plate 02-1-19 is fixed on the bamboo stick pressing plate seat 02-1-22 through a shaft 02-1-30, the air cylinder 02-1-22 is fixed below the upper stick seat 02-1-21, a push rod of the air cylinder is connected with the bamboo stick pressing plate seat 02-1-22, the bamboo stick pressing plate seat 02-1-22 and the bamboo stick pressing plate 02-1-19 are pushed to move together, and stick pressing and release of the bamboo stick are achieved. The cutting and pushing of the bean curd with cut flowers are realized.

As shown in figure 9, the bean curd pressing unit 02-2 comprises a support 02-2-16, a cylinder fixing plate 02-2-5 is fixed below the support, an adjusting screw plate 02-2-13 is fixed above the cylinder fixing plate, shafts 02-2-4 and 02-2-14 penetrate through two ends of the adjusting screw plate, movable limiting rings 02-2-1 are arranged at two ends of the shaft 02-2-4, compression springs 02-2-3 are arranged on the inner sides of the limiting rings 02-2-1, undercut flower cylinders 02-2-7 are fixed on the cylinder fixing plate 02-2-5, and undercut flower pressing plates are fixed at the movable ends of undercut flower cylinders 02-2-7. The function of the air cylinder is to press the bean curd to be undercut into the blades of the undercut flower unit 02-4 to complete the undercut flower. The cylinder 02-2-9 is fixed on the 02-2-11 lifting plate, two guide shafts 02-2-2 are arranged on the 02-2-11 lifting plate, the guide shafts 02-2-2 are positioned in a linear bearing arranged on a cylinder fixing plate 02-2-5, the bolt 02-2-6 is fixed on the 02-2-11 lifting plate, the knob 02-2-12 is sleeved on the bolt 02-2-6, and the lower end of the knob is positioned on the adjusting screw plate 02-2-13. The knob 02-2-12 is rotated to realize the lifting of the cylinder 02-2-9, so that the bean curd to be penetrated by the bamboo sticks pressed by the cylinder 02-2-9 is displaced in the vertical direction, and the purpose of adjusting the bamboo sticks to penetrate into the middles of the bean curd with different thicknesses is achieved. The unit is fixed on a 02-1-1 tagging unit bracket through a shaft 02-2-14, the unit can rotate around the shaft 02-2-14, the unit is positioned in a groove of a 02-1-16 positioning ring in the 02 unit through the shaft 02-2-4, and movable limiting rings 02-2-1 at two ends of the shaft 02-2-14 are tightly sleeved on the 02-1-16 positioning ring in the 02 unit under the action of a compression spring 02-2-3. The movable limiting ring 02-2-1 is pulled inwards, the locking can be released, and the bean curd pressing unit 02-2 rotates around the shaft 02-2-14 to be opened, so that the cleaning of the equipment after the work is finished is facilitated.

As shown in FIG. 10, the undercut flower unit 02-3 includes a liftout plate 02-3-1, on which 4 shafts 02-3-2 and a blade holder 03-3-5 are mounted, a blade 03-3-3 fixed to the blade holder 03-3-5, and two springs disposed between the blade holder 03-3-5 and the liftout plate 02-3-1 to return the liftout plate 02-3-1. The bean curd with the top cut flower in the position shown in figure 5 is conveyed to the station of the 01-4 unit by the conveyer belt 01-1-6, pushed onto the ejecting plate 02-3-1 by the air cylinder 01-4-9 in figure 6, and pressed into the blade 02-3-3 by the air cylinder 02-2-7 in figure 9 to complete the bottom cut flower.

As shown in FIG. 11, the stick penetrating unit 02-4 comprises a supporting plate 02-4-1, 4 shafts 02-4-2 are arranged on the supporting plate, the shafts 02-4-2 can move up and down along linear bearings arranged on a base 02-4-5, and two springs are arranged between the supporting plate 02-4-1 and the base 02-4-5 to help the supporting plate 02-4-1 return. The bean curd with the bottom cut flower at the station 02-2 in the figure 10 is pushed into a bean curd middle supporting plate 02-4-1 with the cut flower by a bamboo stick pushing plate 02-1-8. The air cylinder 02-4-9 in figure 9 presses the bean curd to be penetrated with sticks to the stick penetrating position, and the bamboo stick push plate 02-1-8 in figure 8 pushes the bamboo sticks into the bean curd with cut flowers. In the next cycle, the air cylinder 02-4-9 in figure 9 synchronously pushes the bean curd with the sticks to the flower-pulling belt to pull the flower.

As shown in fig. 12, the plate-turning feeding unit 03 comprises a bean curd strip unit 03-1, a bean curd strip conveyor 03-2 and a plate-turning unit 03-3.

As shown in fig. 13, the bean curd strip unit 03-1 includes a unit bracket 03-1-1, two guide shafts 03-1-9 are arranged on the guide device, two movable beams 03-1-1, 03-1-6 are arranged on the guide shafts 03-1-9, an air cylinder 03-1-4 is fixed on the beam 03-1-1, the movable push rod is connected with a slitting knife holder 03-1-5, the slitting knife 03-1-3 is fixed on the knife holder 03-1-5, the cylinder 03-1-7 is fixed on the beam 03-1-6, the movable push rod is connected with the cross beam 03-1-1, the cylinder 03-1-8 is fixed on the unit bracket 03-1-1, and the movable push rod is connected with the cross beam 03-1-6. The cylinder 03-1-4 pushes the slitting blade 03-1-3 to move up and down to complete bean curd slitting, and the cylinder 03-1-7 is responsible for pushing the previously slit bean curd strips onto the conveyer belt 01-2-1 in the figure 3. The air cylinder 03-1-8 and the air cylinder 03-1-7 complete the pushing of the last bean curd.

As shown in FIG. 14, the bean curd strip conveyer belt 03-2 comprises a conveyer belt 03-2-1, a pallet 03-2-2 and a support 03-2-3, wherein the conveyer belt 03-2-1 conveys bean curd to the pallet 03-2-2 at a certain width, and the bean curd is cut by a strip cutter 03-1-3 in FIG. 13 and pushed to a conveyer belt 01-2-1 in FIG. 3.

As shown in FIG. 15, the turning plate unit 03-3 comprises a tofu plate bracket 03-3-1, a turning plate conveyor belt 03-3-2 and a turning plate bracket 03-3-3.

As shown in FIG. 16, the tofu plate holder 03-3-1 comprises a support 03-3-1-1, a shaft support plate 03-3-1-4, 4 identical cylinders 03-3-1-2 provided at 4 corners of the support 03-3-1-1, and two identical cylinders 03-3-1-3 provided at both sides of the front end thereof. The cylinder 03-3-1-2 is responsible for jacking the bean curd plate in the plate turning process, so that bean curd on the plate is tightly attached to the conveying belt, and the bean curd is prevented from moving. The cylinder 03-3-1-3 is responsible for locking the tofu plate bracket 03-3-1 and the turnover plate conveyor belt 03-3-2 together in the turnover process.

As shown in fig. 17, the flap conveyer belt 03-3-2 comprises a conveyer belt 03-3-2-1, a locking plate 03-3-2-2, a bracket 03-3-2-3, a belt driving shaft 03-3-2-8, a motor 03-3-2-10 connected to one end of the belt driving shaft, a turnover driving plate 03-3-2-6 connected to one end of the belt driving shaft, a bull gear 03-3-2-7 fixed to the belt driving shaft, and a turnover cylinder base 03-3-2-4 fixed to the turnover driving plate 03-3-2-6. The cylinder 03-3-2-5 and the cylinder 03-3-2-9 are fixed on the overturning cylinder seat 03-3-2-4.

As shown in figure 18, the turning plate bracket 03-3-3 comprises a bracket 03-3-3-1, a bracket 03-3-3-2 shaft bracket, a pinion 03-3-3-3 fixed on the power shaft 03-3-4 and meshed with the bull gear 03-3-2-7, and a motor 03-3-3-5 fixed at the end of the power shaft 03-3-3-4. The motor 03-3-3-5 drives the power shaft 03-3-3-4 to rotate, and the overturning driving plate 03-3-2-6 is driven to rotate around a 03-3-2-8 belt driving shaft by meshing the pinion 03-3-3 with the bull gear 03-3-2-7.

When the bean curd plate shelf is in work, the bean curd plate bracket 03-3-1 and the turning plate conveyor belt 03-3-2 are horizontally arranged on the turning plate bracket 03-3-2 at 180 degrees. The bean curd plate is placed in the bean curd plate bracket 03-3-1, the shaft on the air cylinder 03-3-2-5 enters the hole on the bracket 03-3-2-3, the turnover driving plate 03-3-2-6 drives the bracket 03-3-2-3 to rotate reversely by 180 degrees, the conveyer belt 03-3-2-1 is pressed on the bean curd plate bracket 03-3-1, the shaft on the air cylinder 03-3-2-9 enters the hole on the bracket 03-3-1-1 in figure 16, the turnover driving plate 03-3-2-6 rotates forwards to drive the two brackets to rotate by 180 degrees around the belt driving shaft 03-3-2-8, after the two brackets are in place, the shaft on the cylinder 03-3-2-5 exits the hole on the bracket 03-3-2-3. The air cylinder 03-3-2-5 and the air cylinder 03-3-2-9 return to the original position, the driving shaft 03-3-2-8 rotates reversely by 180 degrees, and the tofu plate bracket 03-3-1 is carried to return to the original position. Then, the bean curd plate is taken away by hands, bean curd is left on the turning plate conveyor belt 03-3-2-1, the motor 03-3-2-10 is started to drive the turning plate conveyor belt 03-3-2-1 to move, and the bean curd on the turning plate conveyor belt is conveyed to the conveyor belt 03-3-2-1 in the picture 17 to circularly work.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (8)

1. An orchid dried bean curd processing system is characterized by comprising: the turnover plate feeding unit comprises a turnover plate conveying belt and a turnover plate support, one end of a belt driving shaft of the turnover plate conveying belt is connected with a motor, one end of the belt driving shaft is connected with a turnover driving plate, a large gear is fixed on the turnover driving plate, a turnover cylinder seat is fixed on the turnover driving plate, a cylinder is fixed on the turnover cylinder seat, a small gear of the turnover plate support is fixed on a power shaft and meshed with the large gear, the motor is fixed at the end of the power shaft, the motor drives the power to rotate, and the turnover driving plate is driven to rotate around the belt driving shaft by the meshing;

the conveying unit for cutting the block top into the bean curd is composed of conveying belt units, wherein the conveying belt units are formed by connecting two groups of conveying belts in series, the length of the bean curd conveyed by the conveying belts is controlled by a servo motor, and the servo motor controls the conveying belts to separately convey the cut bean curd blocks to the next station at a certain interval by changing the speed;

and the undercut flower and stick feeding unit comprises a stick feeding unit, a main shaft of the stick feeding unit is connected with a speed reducer, a large gear on the main shaft is meshed with a middle gear, the middle gear is meshed with a small gear, the small gear is connected with a shaft, a 5-edge cam is arranged on the shaft, the main shaft drives the shaft to rotate in an accelerating manner through the three gears, the cam stirs the bamboo sticks in the bamboo stick box to enable the bamboo sticks to enter a groove on the stick feeding wheel, the stick feeding wheel rotates to feed the bamboo sticks into the groove on the stick feeding seat, a bamboo stick pushing plate is connected with the shaft, the shaft is fixed on a guide plate, an air cylinder drives the guide plate to move on the guide shaft to enable the bamboo stick pushing plate to push the bamboo sticks into the cut bean curd, the bamboo sticks pushed by the bamboo stick pushing plate firstly enter the lower part of the bamboo pressing plate, the bamboo stick pressing plate can rotate around the shaft to press the bamboo sticks on the bottom surface of the stick feeding seat under the action of a spring, and therefore the bent and, the bamboo stick clamp plate is fixed on the bamboo stick clamp plate seat through the axle, and the cylinder is fixed in the below of last bamboo stick seat, and its push rod links to each other with the bamboo stick clamp plate seat, promotes bamboo stick clamp plate seat and bamboo stick clamp plate and moves together, realizes wearing of bamboo stick and release.

2. The orchid dried bean curd processing system of claim 1, wherein: the cutting block top cut flower conveying unit further comprises a cutter of the dried orchid cut flower cutting unit, bean curd is cut off through the up-and-down movement of the air cylinder, the air cylinder support is fixed on the supporting plate, and a roller capable of allowing bean curd blocks to move is arranged in the middle of the supporting plate.

3. The orchid dried bean curd processing system of claim 1, wherein: the cutting block top cut flower conveying unit further comprises a cylinder of a dried orchid top cut flower unit, the cylinder is fixed to the top of the support through a cylinder fixing plate, the blades are mounted in the blade holders, spacers are arranged between every two blades to support the blades vertically, the blade holders are fixed to the lower ends of the cylinders, the push plate is fixed to the blade holders through shafts, two compression springs are arranged between the blade holders, the cylinder moves downwards, the blades cut patterns on the upper surface of bean curd, then the blades move upwards, and the push plate pushes the bean curd out of the blades under the action of the springs.

4. The orchid dried bean curd processing system of claim 1, wherein: the undercut flower stick feeding unit further comprises a bean curd pressing unit, an undercut flower cylinder of the bean curd pressing unit is fixed on a cylinder fixing plate, an undercut flower pressing plate is fixed at the movable end of the undercut flower cylinder, bean curd to be undercut flower is pressed into a blade of the undercut flower unit to finish undercut flower, the cylinder is fixed on a lifting plate, two guide shafts are arranged on the lifting plate and are positioned in linear bearings arranged on the cylinder fixing plate, a bolt is fixed on the lifting plate, a knob is sleeved on the bolt, the lower end of the knob is positioned on an adjusting screw plate, and the cylinder can be lifted by rotating the knob, so that the bean curd to be stuck, pressed by the cylinder, is displaced in the vertical direction, and the purpose of adjusting the bamboo sticks to penetrate into the middles of bean curds with different thicknesses is achieved.

5. The orchid dried bean curd processing system of claim 1, wherein: the bottom cut flower upper label unit further comprises a bottom cut flower unit, a blade of the bottom cut flower unit is fixed on the cutter holder, and two springs are arranged between the cutter holder and the ejector plate to enable the ejector plate to return.

6. The orchid dried bean curd processing system of claim 1, wherein: the bottom cut flower stick feeding unit further comprises a stick penetrating unit, the stick penetrating unit is provided with a supporting plate and a base, a spring is arranged between the supporting plate and the base to help the supporting plate return, and the bean curd with the bottom cut flower is pushed into the bean curd middle supporting plate with the cut flower through a bamboo stick pushing plate.

7. The orchid dried bean curd processing system of claim 1, wherein: the turnover plate feeding unit further comprises a bean curd slitting unit, a guide shaft of the bean curd slitting unit is provided with two movable cross beams, the air cylinder is fixed on the cross beams, a movable air cylinder push rod is connected with a slitting knife holder, a slitting blade is fixed on the knife holder, the air cylinder pushes the slitting blade to move up and down to complete bean curd slitting, and the air cylinder is responsible for pushing the slit strip-shaped bean curd to a conveying belt.

8. The orchid dried bean curd processing system of claim 1, wherein: the turnover plate feeding unit also comprises a bean curd strip-dividing conveying belt, and bean curd is conveyed to the supporting plate by the conveying belt of the bean curd strip-dividing conveying belt according to a certain width, is cut by the strip-dividing blade and is pushed onto the conveying belt.

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